Oscillation Tests for Fractional Difference Equations

Chatzarakis, George E.; Gokulraj, Palaniyappan; Kalaimani, Thirunavukarasu

doi:10.2478/tmmp-2018-0005

Abstract

In this paper, we study the oscillatory behavior of solutions of the fractional difference equation of the form

$Δ (r (t) g (Δ^{α} x (t))) + p (t) f (\sum_{s = t_{0}}^{t - 1 + α} {(t - s - 1)}^{(- α)} x (s)) = 0, t \in 𝕅_{t_{0} + 1 - α},$ $$\Delta \left( {r\left( t \right)g\left( {{\Delta ^\alpha }x(t)} \right)} \right) + p(t)f\left( {\sum\limits_{s = {t_0}}^{t - 1 + \alpha } {{{(t - s - 1)}^{( - \alpha )}}x(s)} } \right) = 0, & t \in {_{{t_0} + 1 - \alpha }},$$

where Δ^α denotes the Riemann-Liouville fractional difference operator of order α, 0 < α ≤ 1, ℕ_t₀+1−α={t₀+1−αt₀+2−α…}, t₀ > 0 and γ > 0 is a quotient of odd positive integers. We establish some oscillatory criteria for the above equation, using the Riccati transformation and Hardy type inequalities. Examples are provided to illustrate the theoretical results.

References

[1] ABDALLA, B.—ABUDAYA, K.—ALZABUT, J.—ABDELJAWAD, T.: New oscillation criteria for forced nonlinear fractional difference equations, Vietnam J. Math. 45 (2017), 609–618.10.1007/s10013-016-0230-y
Search in Google Scholar Back to article
[2] ABDELJAWAD, T.: On Riemann and Caputo fractional differences, Comput. Math. Appl. 62 (2011), 1602–1611.10.1016/j.camwa.2011.03.036
Open DOI Search in Google Scholar Back to article
[3] ALZABUT, J.—ABDELJAWAD, T.: Sufficient conditions for the oscillation of nonlinear fractional difference equations, J. Fract. Calc. Appl. 5 (2014), 177–187.
Search in Google Scholar Back to article
[4] CHATZARAKIS, G. E.—GOKULRAJ, P.—KALAIMANI, T.—SADHASIVAM, V.: Oscillatory solutions of nonlinear fractional difference equations, Int. J. Differ. Equ. 2018 (2018) (to appear).10.1186/s13662-018-1905-3
Search in Google Scholar Back to article
[5] CHEN, F.: Fixed points and asymptotic stability of nonlinear fractional difference equations, Electron. J. Qual. Theory Differ. Equ. 39 (2001), 1–18.10.14232/ejqtde.2011.1.39
Search in Google Scholar Back to article
[6] CHEN, F.—LIU, Z.: Asymptotic stability results for nonlinear fractional difference equations, J. Appl. Math. 2012 (2012), 1–14.10.1155/2012/879657
Search in Google Scholar Back to article
[7] CHEN, F.—LUO, X.—ZHOU, Y.: Existence results for nonlinear fractional difference equation, Adv. Differ. Equ. 2011 (2011), 1–12.10.1155/2011/713201
Search in Google Scholar Back to article
[8] DIAZ, J. B.—OLSER, T. J.: Differences of fractional order, Math. Comput. 28 (1974), 185–202.10.1090/S0025-5718-1974-0346352-5
Search in Google Scholar Back to article
[9] SELVAM, A. G. M.—SAGAYARAJ, M. R.—LOGANATHAN, M. P.: Oscillatory behavior of a class of fractional difference equations with damping, Int. J. Appl. Math. Res. 3 (2014), 220–224.10.14419/ijamr.v3i3.2624
Search in Google Scholar Back to article
[10] HARDY, G. H.—LITTLEWOOD, J. E.—POLYA, G.: Inequalities. Cambridge University Press, Cambridge, 1959.
Search in Google Scholar Back to article
[11] LI, W. N.: Oscillation results for certain forced fractional difference equations with damping term, Adv. Differ. Equ. 2016 (2016), 1–9.10.1186/s13662-015-0739-5
Search in Google Scholar Back to article
[12] LOGANATHAN, M. P.—SAGAYARAJ, M. R.—SELVAM, A. G. M.: On the oscillation of non-linear fractional difference equations, Math. Aeterna 4 (2014), 91–99.
Search in Google Scholar Back to article
[13] SAGAYARAJ, M. R.—SELVAM, A. G. M.—LOGANATHAN, M. P.: Oscillation criteria for a class of discrete nonlinear fractional equations, Bull. Soc. Math. Serv. Stand. 3 (2014), 27–35.
Search in Google Scholar Back to article
[14] SECER, A.—ADIGUZEL, H.: Oscillation of solutions for a class of nonlinear fractional difference equations, J. Nonlinear Sci. Appl. 9 (2016), 5862–5869.10.22436/jnsa.009.11.14
Open DOI Search in Google Scholar Back to article

Oscillation Tests for Fractional Difference Equations

Abstract

Paradigm

My account